Orthodontic appliance shield

ABSTRACT

A protective shield is removably mounted over an orthodontic appliance in a user&#39;s mouth and includes an outer resilient compressible material layer joined to an inner adhesive layer. The shield is flexible for easy installation over all exposed surfaces of the orthodontic appliance; but is removable after a period of use. The outer resilient material layer of the shield can be formed of closed cell foam or a gelatinous material.

CROSS REFERENCE TO CO-PENDING APPLICATION

The present application is a continuation of U.S. patent application Ser. No. 13/367,056, entitled ORTHODONTIC APPLIANCE SHIELD, filed on Feb. 6, 2012, and claims priority benefit to U.S. Provisional Patent Application Ser. No. 61/440,549, entitled ORTHODONTIC APPLIANCE SHIELD, filed on Feb. 8, 2011. The contents of both of the above applications are incorporated herein in their entirety.

BACKGROUND

Sports which involve physical contact, such as football, hockey or lacrosse, commonly require helmets and mouth guards or teeth protectors. Athletes who wear orthodontic appliances, such as braces, face an extra hurdle in fitting the mouth guards around their orthodontic appliance.

Mouth guards and orthodontic appliance shields have been devised for protecting orthodontic appliances during such contact sports as well as protecting the inner surfaces of the athletes' lips and cheeks from injury. The use of such shields is becoming more important due to athletic event rules which require a person having a bleeding cut to be removed from the athletic contest until the bleeding stops.

Orthodontic appliance shields formed of pliable wax and plastic have been devised; but are cumbersome in fitting over the orthodontic appliance each time they are to be used. More rigid orthodontic appliance guards overcome this problem, but create additional problems relating to breathing difficulties and a higher cost.

Therefore, it would be desirable to provide an orthodontic appliance shield which addresses the above mentioned problems; while at the same time providing an easy to apply and easy to remove one time use.

SUMMARY

A protective shield applied over an orthodontic appliance on a user's teeth has a flexible strip having opposed longitudinal ends and opposed lateral side edges. The strip is in the form of an outer layer of a resilient compressible material joined to an inner adhesive layer. The inner adhesive layer provides adhesion of the resilient compressible material outer layer over all exposed surfaces of an orthodontic appliance while retaining the resilient outer layer on a user's teeth.

The adhesive layer can be applied over one entire surface of the outer layer. Alternatively, the adhesive layer can be applied in spaced longitudinal strips along the opposed side edges of the strips. The adhesive layer can be formed in discontinuous portions between the longitudinally opposed ends of the strip.

The outer layer of the strip can be formed of high density closed cell foam, such as polyolefin foam. The shield of the outer layer of the shield can also be formed of an elastomer, such as one of silicone, synthetic or natural rubber, and silicone gel.

In one aspect, the longitudinal side edges of the strip have a continuous linear shape. Alternately, one of the side edges can have two spaced enlarged areas or tabs projecting away from a major extent of the one side edge to cover a larger orthodontic appliance on a canine tooth.

BRIEF DESCRIPTION OF THE DRAWING

The various features, advantages and other uses of an orthodontic appliance shield will become more apparent by referring to the following detailed description and drawing in which:

FIG. 1 is a pictorial representation of orthodontic appliances applied to upper and lower teeth;

FIG. 2A is an exploded perspective view showing the application of an orthodontic appliance guard on a user's upper teeth;

FIG. 2B is a front elevational view of one aspect of an orthodontic appliance guard;

FIG. 2C is a front elevational view of another aspect of an orthodontic appliance guard;

FIG. 3 is a lateral cross sectional view of the orthodontic appliance guard shown in FIG. 2A;

FIG. 4 is a pictorial representation showing the installation of the orthodontic appliance guards on both upper and lower sets of teeth;

FIG. 5 is a lateral cross-sectional view shown in the installation of the orthodontic appliance guard of FIG. 2 on an upper tooth and appliance;

FIG. 6 is a pictorial representation of one aspect of a storage roll containing a plurality of orthodontic appliance guards shown in FIG. 2;

FIG. 7 is a lateral cross sectional view showing the mounting of another aspect of an orthodontic appliance guard shown on upper and lower teeth; and

FIG. 8 is a lateral cross sectional view showing the mounting of another aspect of an orthodontic appliance shield covering a user's orthodontic appliance and a portion of the user's adjacent gum tissue.

DETAILED DESCRIPTION

An orthodontic appliance shield or guard is disclosed in the form of a flexible guard or shield which is easily installed over an orthodontic appliance and which protects the surrounding inner soft lip and cheek tissue from contact with the sharp surfaces of the orthodontic appliance if the user's face is accidently struck, with force, such as during an athletic event. This minimizes the occurrence of cuts and bleeding in the lips and cheeks, which require the athlete to be removed from the athletic contest until the bleeding stops. The orthodontic appliance shield is easy to install and provides a one time, inexpensive, disposable use; while, at the same time, protecting the soft tissue in a user's mouth surrounding the orthodontic appliance from injury during physical contact in an athletic event.

Referring to FIG. 1, there is a depicted an example of orthodontic appliances 10 and 12 applied to a user's upper teeth 14 and lower teeth 16, respectively. It will be understood that the shape, attachment, length and number of teeth to which the orthodontic appliance is applied is shown in FIG. 1 only by way of example as it will be understood that the orthodontic appliance 10 may take any necessary shape and configuration to suit a particular user's orthodontic requirements.

A shield or guard 20, shown in FIGS. 2A, 2B, 2C, 3, 4, and 5, is formed of an elongated strip of pliable, flexible material which is sized in width and length to cover the entire exterior surface of the orthodontic appliance 10 or 12. Although the shield 20 is shown in FIGS. 2A and 5 as being applied only over the appliance 10 on the upper teeth 14 of a user, a similar shield 20 may also be provided for the lower teeth 16 of the user as seen in FIG. 4.

The shield 20 may have a suitable thickness to facilitate flexibility and a comfortable feel to the user when applied over the user's orthodontic appliances. For example, the shield 20 can have a thickness of about 0.020 mm to about 1.5 mm. The thickness of the shield 20 could be from about 0.08 mm to about 0.80 mm.

Although the side edges of the shield 20 shown in FIG. 2B are generally linear, with rounded corners at the juncture with the longitudinal ends 21 and 23, the side edges 25 and 27 may have other shapes. For example, as shown in FIG. 2C, the shield 20 is formed with at least one or two elongated areas or tab 29 formed as a continuous part of one side edge 25. The elongated portions or tabs 29 provide an enlarged guard surface to cover the longer canine teeth of a user.

The shield 20 can be formed of a flexible, dental hygienic thermoplastic material. In one example, the shield 20 is formed of closed cell foam, such as a polyolefin polyvinyl chloride, or urethane foam. These foams have shape memory and can be preformed into any shape, as shown in FIGS. 2 and 6.

In another example, the shield 20 is formed of a thin flexible polyolefin film or an elastomer, such as silicone, synthetic or natural rubber, urethane and the like. The elastomer can be filled with a gelatinous material, such as silicone gel.

The shield 20 has an outer layer 22 formed of the close cell foam or gelatinous material and a layer 24 of an adhesive material, such as a pressure sensitive adhesive or a hydrogel adhesive

One adhesive composition which is suitable to form the adhesive layer 24 is polyvinylpryrrolidone (PVP) in the mixture with a humectant plasticizer such as polyethylene glycol and water. The mixture, which can be from about 20-80% by weight of PVP, to about 10% to about 50% by weight of the polyethylene glycol or other-humectant plasticizer, and about 5% to about 30% by weight of water, is thoroughly mixed and applied in a thin layer on one side of the flexible layer 22. The mixture is allowed to dry to facilitate easy handling and installation of the shield 20 over a user's orthodontic appliance 10. However, when the PVP is exposed to moisture in the user's mouth, it enters an active state to form an adhesive bond to the user's teeth to securely, but removably, retain the shield 10 on the user's teeth over the orthodontic appliance 10 for a period of time.

One specific example of an adhesive layer 24 is a mixture of about 50% PVP, about 40% polyethylene glycol and about 10% water, by weight.

It is also possible to form the adhesive layer 24 as a two part layer including the aforementioned mixture of PVP, humectant plasticizer and water and a substrate or base layer, such as a thin flexible polyolefin film. The polyolefin acts as a substrate to facilitate handling and drying of the mixture. The polyolefin can be adhesively joined to one surface of the flexible layer 22 of the shield 20 by pressure sensitive or tie adhesive.

Other tacky hydrophilic polymers are alkyl vinyl ether maleic acid copolymer (commonly used as denture adhesive) and polyvinylpyrrolidone copolymers such as vinyl pyrrolidone-acrylic acid copolymer, vinyl pyrrolidone-vinyl acetate copolymer, and vinyl pyrrolidone-vinyl imidazole co-polymer. Aqueous polymer solutions are made and cross-linked into solid hydro gels by radiation followed by drying for this application.

The humectant plasticizer added to those aqueous solutions are typically polyols like polyethylene glycol that retain water and prevent the hydrogel from becoming a hard and dry film. Other commonly used humectant plasticizers are glycerol, sorbitol, and propylene glycol.

The percent ranges by weight for these tacky hydrophilic polymers, humectants plasticizers, and water is the same as the PVP hydrogel example described above.

Although the entire surface of the shield 20 facing the teeth when in use, may be coated with the adhesive material 24 in a continuous layer, it is also possible to apply the adhesive layer 24 only to the flatter side end portions 26 and 28 of the shield 20 which contact the user's teeth 14 or 16 as shown in cross-section in FIG. 7. In this aspect, the inner surface of the shield 20 which surrounds and contacts the appliance 10 or 12 is not adhesively fixed to the appliance 12.

It is also possible to coat the entire inner surface of the shield 20 with the adhesive layer 24 in continuous, longitudinally spaced strips along the length of the shield 20, or in discontinuous portions along the length and width of the shield 20.

The sticky adhesive material is selected to enable the shield 20 to be easily applied to the user's teeth 14 or 16 and wrapped around the appliance 10 or 12 while still being fixedly retained for a brief period of time, such as several hours, on the teeth to enable the user to participate in an athletic event. At the completion of the event, the user may simply grasp one edge of the shield 20 and pulls the shield 20 along its length to remove it from the user's teeth 14 or 16 and the orthodontic appliances 10 or 12 respectively mounted thereon.

In applying the strip 20, the user may bring one edge, such as the upper or lower end portions 26 or 28, into contact with the exposed portions of the user's teeth 14 or 16. The user then presses lightly on the side edge 26 or 28 of the shield 20 to firmly engage the adhesive layer 24 with the teeth 14 or 16. The user then smoothly conforms the shield 20 over the appliance 10 or 12 before bringing the opposed side edge 28 into contact with the teeth 14 or 16. The user again applies firm pressure to the side edge 28 to fixedly engage the adhesive layer 24 with the user's teeth 14 or 16.

In the use position as shown in FIG. 5, the shield 20 completely covers all of the exterior surfaces of the orthodontic appliances 10 or 12, and prevents the engagement of the sharp edges and portions of the orthodontic appliances 10 or 12 with the inner surfaces of the soft tissue of the user's lips or cheeks denoted generally by reference number 30 in FIG. 5. This prevents the orthodontic appliance 10 or 12 from causing injury to and bleeding from the lip or cheek tissue 30 when an external force, as frequently occurs during a contact or even a non-contact athletic event, from bringing the soft tissue 30 into forced engagement with the sharp edges, comers, or other portions of the orthodontic appliances 10 or 12.

The shield 20 thus minimizes injury to the soft tissue 30, which can prevent bleeding during an athletic event that previously would have required the athlete to remove himself or herself from the event until the bleeding stopped.

The shield 20 can be provided in a flat shape which is still conformable due to its inherent flexibility, into the installed shape shown in FIG. 5 where the end portions 26 and 28 are fixedly attached to the user's teeth 14 and an intermediate portion of the shield 20 extends away from the teeth and completely surrounds the external surfaces of the orthodontic appliance 10 or 12 user's teeth over the orthodontic appliance 10 for a period of time.

As shown in FIGS. 2, 3 and 6, the shield 20 may have a preformed arch-like shape more suitable to fit around a conventional orthodontic appliance 10 and 12. Even with the preformed shaped shown in FIGS. 2, 3, and 6, the shield 20 still has a sufficient degree of resiliency to enable the user to conform the shield 20 to the specific shape of the user's orthodontic appliances 10 or 12.

The shield 20 may be manufactured and packaged in a variety of forms. In one aspect, the shield 20 can be provided as a group of pre-sized, separate shields 20, each having the same predetermined length. The adhesive layer 24 may be covered by a peel-off non-adhering sheet, such as wax paper, which enables a single strip 20 to be separated from the remaining stack of strips 20 in a package.

Alternately, as shown in FIG. 6, the strips 20 can be formed in a continuous elongated strip wound in a roll 34. The end most strips 20 can be unrolled from the roll 34 and separated from the roll 34 by severing the strip 20 from the remaining roll 34 by means of a series of perforations or cuts 36 preformed at predetermined length intervals along the entire length of the continuous roll 34.

The strips 20 can also be formed in a continuous elongated strip while in a roll, such as roll 34, but without perforations or cuts preformed at predetermined length intervals. In this aspect, the user cuts a predetermined length from the strip 20 to suit the user's particular sized orthodontic appliance.

Another aspect of the orthodontic appliance shield 50 is shown in FIGS. 7 and 8. It will be understood that although FIGS. 7 and 8 show the construction of the shield with a gelatinous material layer, the shield 50 could also be formed using the foam material described above.

The shield 50 is formed with an outermost gelatinous material layer 52 and an innermost adhesive layer 54, both of which may be constructed of the materials described above. In the aspect of the shield 50 shown in FIG. 7, the shield 50 has an elongated shape extending between opposed ends, both of which are positioned for releasable attachment to the user's teeth, representatively shown by tooth 14 in FIG. 7. The gelatinous layer 52, in this aspect, has a smooth outer shape, but areas with different width cross sections to accommodate positioning on the upper or lower teeth 14 and 16 of a user.

As shown in FIG. 7, the outer gelatinous layer 52 of the shield 50 on each of the upper and lower teeth 14 and 16 is positioned to contact the inner surface of the adjacent cheek or soft tissue 56 of the user's mouth to prevent contact between the tissue 56 and the sharp edges of the orthodontic appliance 10 or 12.

In the aspect of the shield 60 shown in FIG. 8, the shield 50 has an elongated width for both the gelatinous layer 62 and the adhesive layer 64. The elongated width enables the shield 60 to extend from a first end 66 located at a position removably adhesively affixed to the user's gum 68 adjacent to the user's tooth 14. The adhesive layer 64 and the inner surface of the gelatinous layer 62 transitions through a smoothly curved in and out sinuous shape from the one end 66 to an opposed end 74. This smoothly curved shape enables the shield 60 to completely cover the exposed surface of the orthodontic appliance 10 to prevent contact between the orthodontic appliance 10 and the surround soft tissue 56 of the user's mouth. As shown in FIG. 8, the inner adhesive layer 64 and the adjacent portion of the gelatinous layer 62 may curve inward at an intermediate portion 69 to curve over one side edge of the orthodontic appliance 10. The two adjacent curved portions or lobes 70 and 72 formed on the inner surface of the shield 60 enable the shield 62 smoothly extend from the end 74 removably adhesively fixed to the user's tooth 14 to the opposite end 66 which is removably, adhesively fixed to the gum 68 adjacent to the tooth 14. 

What is claimed is:
 1. A method of shielding the surrounding inner soft lip and cheek tissue of a user from the surfaces of an orthodontic appliance, the method comprising the steps of: providing an orthodontic appliance shield comprising: a flexible outer layer having opposed longitudinal ends and opposed lateral side edges formed from a resilient compressible material and wherein the flexible outer layer has a user facing side and a orthodontic appliance facing side; and an inner adhesive layer facing away from the user facing side; and applying the orthodontic shield over one or more orthodontic appliance engaged with the user's tooth or teeth using the inner adhesive layer thereby shielding the surrounding inner soft lip and cheek tissue of the user that would otherwise contact the orthodontic appliance from the orthodontic appliance and preventing the orthodontic appliance from contacting the surrounding inner soft lip and cheek tissue of the user wherein the inner adhesive layer adheres the orthodontic appliance shield over an exterior facing surface of the orthodontic appliance and adheres to the facial surface of the user's tooth or teeth and the orthodontic appliance; and removing the orthodontic appliance shield.
 2. The method of claim 1, wherein the adhesive layer is applied over one entire surface of the orthodontic appliance facing side of the flexible outer layer and wherein the shield has an overall thickness of from about 0.020 mm to about 1.5 mm.
 3. The method of claim 1, wherein the flexible outer layer has shape memory and is a dentally hygienic material.
 4. The method of claim 3 further comprising the step of the user preforming the orthodontic appliance shield prior to application over the orthodontic appliance.
 5. The method of claim 1, wherein the outer layer is formed of a high density closed cell foam.
 6. The method of claim 5, wherein the foam is a polyolefin.
 7. The method of claim 1, wherein the inner adhesive layer comprises a mixture of polyvinylpryrrolidone, a humectant plasticizer and water.
 8. The method of claim 7, wherein the inner adhesive layer is applied in a thin layer and wherein the method further comprises the step of drying the inner adhesive layer such that the layer may be handled and installed but when installed on the surface of the user's tooth or teeth and orthodontic appliance.
 9. The method of claim 7, wherein the outer layer of the shield is formed of one of silicone, synthetic or natural rubber, and silicone gel. 